451 lines
18 KiB
Kotlin
451 lines
18 KiB
Kotlin
/*
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* Copyright 2023 dorkbox, llc
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package dorkbox.collections
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import java.io.Serializable
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import java.util.concurrent.atomic.*
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/**
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* A bimap (or "bidirectional map") is a map that preserves the uniqueness of its values as well as that of its keys. This constraint
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* enables bimaps to support an "inverse view", which is another bimap containing the same entries as this bimap but with reversed keys and values.
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*
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* This class uses the "single-writer-principle" for lock-free publication.
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*
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* Since there are only 2 methods to guarantee that modifications can only be called one-at-a-time (either it is only called by
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* one thread, or only one thread can access it at a time) -- we chose the 2nd option -- and use 'synchronized' to make sure that only
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* one thread can access this modification methods at a time. Getting or checking the presence of values can then happen in a lock-free
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* manner.
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*
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* According to my benchmarks, this is approximately 25% faster than ConcurrentHashMap for (all types of) reads, and a lot slower for
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* contended writes.
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*
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* This data structure is for many-read/few-write scenarios
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*/
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class LockFreeIntBiMap<V: Any> : MutableMap<Int, V>, Cloneable, Serializable {
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private val defaultReturnValue: Int
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@Volatile
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private var forwardHashMap: IntMap<V>
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@Volatile
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private var reverseHashMap: ObjectIntMap<V>
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private val inverse: LockFreeObjectIntBiMap<V>
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// synchronized is used here to ensure the "single writer principle", and make sure that ONLY one thread at a time can enter this
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// section. Because of this, we can have unlimited reader threads all going at the same time, without contention (which is our
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// use-case 99% of the time)s
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constructor(): this(Int.MIN_VALUE)
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constructor(defaultReturnValue: Int) {
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forwardHashMap = IntMap()
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reverseHashMap = ObjectIntMap()
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inverse = LockFreeObjectIntBiMap(reverseHashMap, forwardHashMap, this, defaultReturnValue)
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this.defaultReturnValue = defaultReturnValue
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}
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internal constructor(forwardHashMap: IntMap<V>, reverseHashMap: ObjectIntMap<V>, inverse: LockFreeObjectIntBiMap<V>, defaultReturnValue: Int) {
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this.forwardHashMap = forwardHashMap
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this.reverseHashMap = reverseHashMap
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this.inverse = inverse
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this.defaultReturnValue = defaultReturnValue
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}
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override val size: Int
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get() = forwardHashMap.size
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/**
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* Removes all the mappings from this bimap.
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* The bimap will be empty after this call returns.
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*/
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@Synchronized
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override fun clear() {
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forwardHashMap.clear()
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reverseHashMap.clear()
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}
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override fun containsValue(value: V): Boolean {
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// use the SWP to get a lock-free get of the value
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return forwardREF[this].containsValue(value)
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}
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override fun containsKey(key: Int): Boolean {
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// use the SWP to get a lock-free get of the value
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return forwardREF[this].containsKey(key)
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}
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/**
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* @return the inverse view of this bimap, which maps each of this bimap's values to its associated key.
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*/
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fun inverse(): LockFreeObjectIntBiMap<V> {
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return inverse
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}
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/**
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* Replaces all the mappings from the specified map to this bimap.
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* These mappings will replace any mappings that this map had for
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* any of the keys currently in the specified map.
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*
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* @param hashMap mappings to be stored in this map
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*
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* @throws NullPointerException if the specified map is null
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*
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* @throws StateException if a given value in the map is already bound to a different key in this bimap. The bimap will remain
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* unmodified in this event. To avoid this exception, call [.replaceAllForce] replaceAllForce(map) instead.
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*/
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@Synchronized
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@Throws(StateException::class)
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fun replaceAll(hashMap: Map<Int, V>?) {
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if (hashMap == null) {
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throw NullPointerException("hashMap")
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}
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val biMap = LockFreeIntBiMap<V>()
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biMap.putAll(hashMap)
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// only if there are no problems with the creation of the new bimap.
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forwardHashMap.clear()
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reverseHashMap.clear()
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forwardHashMap.putAll(biMap.forwardHashMap)
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reverseHashMap.putAll(biMap.reverseHashMap)
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}
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/**
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* Replaces all the mappings from the specified map to this bimap.
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* These mappings will replace any mappings that this map had for
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* any of the keys currently in the specified map. This is an alternate
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* form of [.replaceAll] replaceAll(K, V) that will silently
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* ignore duplicates
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*
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* @param hashMap mappings to be stored in this map
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*
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* @throws NullPointerException if the specified map is null
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*/
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@Synchronized
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fun replaceAllForce(hashMap: Map<Int, V>?) {
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if (hashMap == null) {
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throw NullPointerException("hashMap")
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}
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// only if there are no problems with the creation of the new bimap.
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forwardHashMap.clear()
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reverseHashMap.clear()
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putAllForce(hashMap)
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}
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/**
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* Associates the specified value with the specified key in this bimap.
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* If the bimap previously contained a mapping for the key, the old
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* value is replaced. If the given value is already bound to a different
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* key in this bimap, the bimap will remain unmodified. To avoid throwing
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* an exception, call [.putForce] putForce(K, V) instead.
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*
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* @param key key with which the specified value is to be associated
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* @param value value to be associated with the specified key
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*
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* @return the previous value associated with <tt>key</tt>, or
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* <tt>null</tt> if there was no mapping for <tt>key</tt>.
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* (A <tt>null</tt> return can also indicate that the map
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* previously associated <tt>null</tt> with <tt>key</tt>.)
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*
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* @throws StateException if the given value is already bound to a different key in this bimap. The bimap will remain
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* unmodified in this event. To avoid this exception, call [.putForce] putForce(K, V) instead.
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*/
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@Synchronized
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@Throws(StateException::class)
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override fun put(key: Int, value: V): V? {
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val prevForwardValue = forwardHashMap.put(key, value)
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if (prevForwardValue != null) {
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reverseHashMap.remove(prevForwardValue)
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}
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val prevReverseValue = reverseHashMap[value, defaultReturnValue]
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reverseHashMap.put(value, key)
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if (prevReverseValue != defaultReturnValue) {
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// WHOOPS!
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// put the old value back
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if (prevForwardValue != null) {
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forwardHashMap.put(key, prevForwardValue)
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}
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else {
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forwardHashMap.remove(key)
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}
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reverseHashMap.put(value, prevReverseValue)
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throw StateException("Value already exists. Keys and values must both be unique!")
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}
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return prevForwardValue
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}
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/**
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* Associates the specified value with the specified key in this bimap.
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* If the bimap previously contained a mapping for the key, the old
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* value is replaced. This is an alternate form of [.put] put(K, V)
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* that will silently ignore duplicates
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*
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* @param key key with which the specified value is to be associated
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* @param value value to be associated with the specified key
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*
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* @return the previous value associated with <tt>key</tt>, or
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* <tt>null</tt> if there was no mapping for <tt>key</tt>.
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* (A <tt>null</tt> return can also indicate that the map
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* previously associated <tt>null</tt> with <tt>key</tt>.)
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*/
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@Synchronized
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fun putForce(key: Int, value: V): V? {
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val prevForwardValue = forwardHashMap.put(key, value)
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if (prevForwardValue != null) {
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reverseHashMap.remove(prevForwardValue, defaultReturnValue)
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}
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val prevReverseValue = reverseHashMap.get(value, defaultReturnValue);
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reverseHashMap.put(value, key)
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if (prevReverseValue != defaultReturnValue) {
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forwardHashMap.remove(prevReverseValue)
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}
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return prevForwardValue
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}
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/**
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* Copies all the mappings from the specified map to this map.
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* These mappings will replace any mappings that this map had for
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* any of the keys currently in the specified map.
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*
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* @param from mappings to be stored in this map
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*
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* @throws NullPointerException if the specified map is null
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*
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* @throws StateException if the given value is already bound to a different key in this bimap. The bimap will remain
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* unmodified in this event. To avoid this exception, call [.putAllForce] putAllForce(K, V) instead.
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*/
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@Synchronized
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@Throws(StateException::class)
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override fun putAll(from: Map<out Int, V>) {
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val biMap = LockFreeIntBiMap<V>()
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for ((key, value) in from) {
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biMap.put(key, value)
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// we have to verify that the keys/values between the bimaps are unique
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if (forwardHashMap.containsKey(key)) { throw StateException("Key already exists. Keys and values must both be unique!") }
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if (reverseHashMap.containsKey(value)) { throw StateException("Value already exists. Keys and values must both be unique!") }
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}
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// only if there are no problems with the creation of the new bimap AND the uniqueness constrain is guaranteed
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forwardHashMap.putAll(biMap.forwardHashMap)
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reverseHashMap.putAll(biMap.reverseHashMap)
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}
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/**
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* Copies all the mappings from the specified map to this map.
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* These mappings will replace any mappings that this map had for
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* any of the keys currently in the specified map. This is an alternate
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* form of [.putAll] putAll(K, V) that will silently
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* ignore duplicates
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*
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* @param hashMap mappings to be stored in this map
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*
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* @throws NullPointerException if the specified map is null
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*/
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@Synchronized
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fun putAllForce(hashMap: Map<Int, V>) {
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for ((key, value) in hashMap) {
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putForce(key, value)
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}
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}
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/**
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* Removes the mapping for the specified key from this map if present.
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*
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* @param key key whose mapping is to be removed from the map
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*
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* @return the previous value associated with [key]
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*/
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@Synchronized
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override fun remove(key: Int): V? {
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val value = forwardHashMap.remove(key)
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if (value != null) {
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reverseHashMap.remove(value)
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}
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return value
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}
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/**
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* Returns the value to which the specified key is mapped,
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* or `null` if this map contains no mapping for the key.
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*
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* More formally, if this map contains a mapping from a key
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* `k` to a value `v` such that `(key==null ? k==null :
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* key.equals(k))`, then this method returns `v`; otherwise
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* it returns `null`. (There can be at most one such mapping.)
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*
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* A return value of `null` does not *necessarily*
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* indicate that the map contains no mapping for the key; it's also
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* possible that the map explicitly maps the key to `null`.
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* The [containsKey][HashMap.containsKey] operation may be used to
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* distinguish these two cases.
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*
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* @see .put
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*/
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override operator fun get(key: Int): V? {
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// use the SWP to get a lock-free get of the value
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@Suppress("UNCHECKED_CAST")
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return forwardREF[this][key] as V?
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}
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/**
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* Returns the reverse key to which the specified key is mapped,
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* or `null` if this map contains no mapping for the key.
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*
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* More formally, if this map contains a mapping from a key
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* `k` to a value `v` such that `(key==null ? k==null :
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* key.equals(k))`, then this method returns `v`; otherwise
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* it returns `null`. (There can be at most one such mapping.)
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*
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* A return value of `null` does not *necessarily*
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* indicate that the map contains no mapping for the key; it's also
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* possible that the map explicitly maps the key to `null`.
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* The [containsKey][HashMap.containsKey] operation may be used to
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* distinguish these two cases.
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*
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* @see .put
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*/
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fun getReverse(key: V): Int? {
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// use the SWP to get a lock-free get of the value
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return reverseREF[this][key]
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}
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/**
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* Returns a {@link Set} view of the keys contained in this map.
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* The set is backed by the map, so changes to the map are
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* reflected in the set, and vice-versa. If the map is modified
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* while an iteration over the set is in progress (except through
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* the iterator's own <tt>remove</tt> operation), the results of
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* the iteration are undefined. The set supports element removal,
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* which removes the corresponding mapping from the map, via the
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* <tt>Iterator.remove</tt>, <tt>Set.remove</tt>,
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* <tt>removeAll</tt>, <tt>retainAll</tt>, and <tt>clear</tt>
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* operations. It does not support the <tt>add</tt> or <tt>addAll</tt>
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* operations.
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*
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* @return a set view of the keys contained in this map
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*/
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override val entries: MutableSet<MutableMap.MutableEntry<Int, V>>
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// use the SWP to get a lock-free get of the value
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@Suppress("UNCHECKED_CAST")
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get() = forwardREF[this].entries as MutableSet<MutableMap.MutableEntry<Int, V>>
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/**
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* Returns a {@link Set} view of the keys contained in this map.
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* The set is backed by the map, so changes to the map are
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* reflected in the set, and vice-versa. If the map is modified
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* while an iteration over the set is in progress (except through
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* the iterator's own <tt>remove</tt> operation), the results of
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* the iteration are undefined. The set supports element removal,
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* which removes the corresponding mapping from the map, via the
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* <tt>Iterator.remove</tt>, <tt>Set.remove</tt>,
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* <tt>removeAll</tt>, <tt>retainAll</tt>, and <tt>clear</tt>
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* operations. It does not support the <tt>add</tt> or <tt>addAll</tt>
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* operations.
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*
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* @return a set view of the keys contained in this map
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*/
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override val keys: MutableSet<Int>
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// use the SWP to get a lock-free get of the value
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get() = forwardREF[this].keys
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/**
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* Returns a [Collection] view of the values contained in this map.
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* The collection is backed by the map, so changes to the map are
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* reflected in the collection, and vice-versa. If the map is
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* modified while an iteration over the collection is in progress
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* (except through the iterator's own <tt>remove</tt> operation),
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* the results of the iteration are undefined. The collection
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* supports element removal, which removes the corresponding
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* mapping from the map, via the <tt>Iterator.remove</tt>,
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* <tt>Collection.remove</tt>, <tt>removeAll</tt>,
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* <tt>retainAll</tt> and <tt>clear</tt> operations. It does not
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* support the <tt>add</tt> or <tt>addAll</tt> operations.
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*
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* @return a view of the values contained in this map
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*/
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override val values: MutableCollection<V>
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// use the SWP to get a lock-free get of the value
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@Suppress("UNCHECKED_CAST")
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get() = forwardREF[this].values as MutableCollection<V>
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/**
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* Returns <tt>true</tt> if this bimap contains no key-value mappings.
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*
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* @return <tt>true</tt> if this bimap contains no key-value mappings
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*/
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override fun isEmpty(): Boolean {
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// use the SWP to get a lock-free get of the value
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return forwardREF[this].isEmpty()
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}
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/**
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* Returns a [Collection] view of the values contained in this map.
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* The collection is backed by the map, so changes to the map are
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* reflected in the collection, and vice-versa. If the map is
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* modified while an iteration over the collection is in progress
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* (except through the iterator's own <tt>remove</tt> operation),
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* the results of the iteration are undefined. The collection
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* supports element removal, which removes the corresponding
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* mapping from the map, via the <tt>Iterator.remove</tt>,
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* <tt>Collection.remove</tt>, <tt>removeAll</tt>,
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* <tt>retainAll</tt> and <tt>clear</tt> operations. It does not
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* support the <tt>add</tt> or <tt>addAll</tt> operations.
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*
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* @return a view of the values contained in this map
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*/
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val reverseValues: MutableCollection<Int>
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// use the SWP to get a lock-free get of the value
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get() = reverseREF[this].values
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/**
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* Return a non-thread-safe copy of the backing map
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*/
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fun toMap(): IntMap<V> {
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return IntMap(forwardREF[this] as IntMap<V>)
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}
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/**
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* Return a non-thread-safe copy of the backing reverse-map
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*/
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fun toReverseMap(): ObjectIntMap<V> {
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return ObjectIntMap(reverseREF[this] as ObjectIntMap<V>)
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}
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companion object {
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const val version = Collections.version
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// Recommended for best performance while adhering to the "single writer principle". Must be static-final
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private val forwardREF = AtomicReferenceFieldUpdater.newUpdater(
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LockFreeIntBiMap::class.java, IntMap::class.java, "forwardHashMap"
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)
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private val reverseREF = AtomicReferenceFieldUpdater.newUpdater(
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LockFreeIntBiMap::class.java, ObjectIntMap::class.java, "reverseHashMap"
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)
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}
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}
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